US1954925A - Photo-electric measuring apparatus - Google Patents

Description

April I7, 1934. w. G. EXTON PHOTO-ELECTRIC MEASURING APPARATUS Filed Aug. 12. 1931 Patented Apr. 17, 1934 V V PHOTO-ELECTRIC MEASURING APPARATUS William G. Exton, New York, N. Y.

Application August 12, 1931, Serial No. 556,579 3 Claims. (01. 83-44) This invention relates, generally, to a novel unknown sample or specimen with a known photo-electrical apparatus for measuring turstandard of similar material because of-peculi'arbidities, colors and other characteristics of fluids. ities of the material to be measured which make It has long been customary to measure the conimpracticable the preparation of suitable com- 5 centrations of colored or dispersed materials by parison standards. As instances of such subvisually Comparing the brightness of light comstances, mention may be made of hemoglobin on ing from a common source as it is transmitted account of its changeablenessin oxygen content, through the unknown sample or specimen and of various proteins on account of their tendthrough a comparison standard composed of cncies to denature and peptize, as well as of sub- 10 similar material of known value or concentration, stances like indican which are unavailable be- 5 and devices for applying 'such comparative cause of prohibitive expense involved in their I methods visually have long been well known unsynthetic preparation. der names such as Nesslar tubes or the Duboscq Other objects of this invention, not at this time colorimeter. Many instruments have been in more particularly enumerated, will be understood 1 use for years which measure such differences in from the following detailed description of the light transmission on scales which denote the invention.

relative depths at which the unknown sample or An illustrative embodiment of this invention is specimen and the comparison standard are shown in the accompanying drawing, in which:--

brought to a brightness match. When brought to Fig 1 is a vertical longitudinal sectional view of 20 such brightness match, the concentration of the a photo-electric measuring apparatus made acunknown sample or specimen is easily-derived cording to and embodying the principles of this from the scale readings denoting depths and the invention; Fig. 2 is a side elevation of the same known value of the standard by some-usually looking toward the left in Fig. 1; and Fig. 3 is a simple mathematical calculation as that exfragmentary horizontal section, taken on line pressed, e. g., by Beer's law. 33 in Fig. l.

My present invention has for an object to pro- Similar characters of reference are employed vide a novel apparatus adapted to increase the in the above described views, to indicate corre- Y accuracy and simplicity and otherwise improve sponding parts.

the facilities for such measurements, as have Referring to said drawing, the reference char- 3 heretofore been made visually, by substituting acter 5 indicates a base upon which is mounted for the limitations of known vision and the pera casing '6 providing an interior enclosed chamsonal equations of observers, a photo-electrical her 7. Arranged within the lower end of said casmeans to accurately indicate the degreeof transing 6 is a light compartment 8 within which is mittedlight under the conditions of test, wheremounted a source of light, such e. g. as the incanz by a brightness match or balance of light is obdescent electric lamp 9,the light emanating therea tainable. from passing'vertically upward through the main Since it also happens, however, that it is somebody of the chamber 7 of said casing 6. Arranged times necessary to measure substances which to be disposed in transverse horizontal position cannot be measured by the direct comparison across the chamber 7 is means to hold the fluids method as above indicated, because materials for or substances to be examined. This means is subpreparing proper comparison standards are, for ject to more or less variation as to form, but prefone reason or another, unavailable; it is, thereerably comprises a slidable supporting plate 10 fore, a further object of this invention to provide movable in channeled guideways 11. Provided an apparatus including not only means to enable on the upper side of said, supporting plate 10 the necessary preliminary balancing of light beare spaced seating depressions or sockets 12 and fore making measurements as above indicated, 13. Axially aligned with each seating depression but which further includes novel means for obor socket 12 and 13, and formed in the; supporting taining light indicated measurement criteria even plate body 10 are apertures 14. Respectively rewhen suitable comparison standards are not ceivable in said seating depressions of sockets 12 available for direct comparison, thus enabling the and 13, are fluid holding cups 15 and 16. These making of measurements of all kinds of materials. cups are preferably made ofglass, at least the The apparatus of the present invention thus bottom ends of which are transparent. The lowmakes it possible and convenient to measure er ends of said cups, when entered in the seating many substances of great interest which cannot depressions or sockets 12 and 13, will serve to now be measured by the usual comparison of the support the cups vertically upright upon the sup- I v I in company with corresponding'movements of porting plate 10, with their transparent bottoms registered over the apertures 14. By sliding the supporting plate 10 in desired direction, either one or the other of the cups may be aligned with and in the path of light emanating from the light source provided by the lamp 9. Such arrangement is of great convenience when utilizing the apparatus to measure an unknown sample or specimen of a given substance in comparison with a known standard of such-substance, since after measuring the known standard to obtain its scale reading, the unknown sample or specimen may be quickly substituted in the path of light for the comparison standard, by sliding the supporting plate 10 in its guide. To facilitate such manipulation an externally projecting end of said supporting plate 10 is provided with a finger-piece 17, and stops 18 and 19 are also provided in connection with said supporting plate to respectively limit the movement of the latter in opposite direction, and to assure the desired selective alignmentof the cups 15 and 16 in the path of light. A wall of the casing 6 is provided with an entrance way or opening 20 above the supporting plate normally closed by a door or cover plate 21, opening of the latter giving access to the supporting plate sockets for the insertion or removal of the cups therefrom, and also facilitating the selective shifting of the cups relative to the light path preparatory to examinations of the content thereof.

Arranged within said casing 6, along one side of the main interior chamber 7 thereof, for vertical up and down movement in guideways 22, is a combined rack-plate and scale-member 23. Journaled in a suitable bearing element 24,

mounted in the adjacent wallof the casing 6, is a spindle 25 upon the. inner end of which is fixed a pinion 26 which meshes with the teeth 27 of said rack-plate. Fixed on the exterior end of said spindle 25 is a knob 28 for rotating the spindle and pinion to raise or lower said rack-plate as may be required. Secured to the upper end of said rack-plate is laterally projecting bracket member 29 having a vertically disposed retaining bushing 30 in which is secured an end of an optical plunger 31, whereby the latter depends vertically from said bracket member 29,- being carried by the latter so as to be movable up or down said rack-plate. The lower free-end of said optical plunger 31 extends downwardly so as to be capable of being entered into the particular fluid cup which is aligned in the path of light emanating from the lamp 9. Preferably the upper end of each fluid cup is an annularly enlarged portion 32 which provides a basin to receive the overflow of fluid driven upwardly from the main body of the cup by a descending movement of the optical plunger. By raising or lowering the optical plunger within the fluid cup aligned therewith, the depth of the column of fluid intermediate the lower end of said plunger and the bottom of the cup may be increased or decreased at will. Suitably inscribed on the outer side of said combined rack-plate and scale member is a scale, preferably reading in millimeters. The wall of said casing 6 adjacent to the scale member thus provided is cut away to provide an opening 33 through which the scale is exposed. Fixed at one side of said opening is a Vernier scale-plate 34 in conjunction with which the movable scalemember may be read. Supported by a bracket 35, for angular outward projection relative to said opening 33 and the scale markings visible therethrough, is a reflector mirror 36 upon which is reflected the scale reading,-so that the same may be more conveniently observed by the operator of the apparatus.

Formed in the upper end of the casing chamber 7,'ab ove the.,optical plunger 31, is a compartment 37, preferably bounded on its lower side by a partition 38 having an aperture 39 aligned with the optical plunger in the path of light emanating from the light source provided by the lamp 9. Mounted within this compartment 3'7, for exposure to light entering upwardly through said aperture 39, is a photo-electric cell 40 of any well known form, upon the anode of which is impressed positive voltage to attract and give direction to the electrons leaving the light sensitive cathode thereof, the latter being subject to excitation by light emanating from the lamp 9. Said photo-electric cell 40 is suitably connected electrically with a suitable form of meter responsive to the electrical output of the cell, such e. g. as a milliammeter 41, having a scale over which moves the electrically responsive indicator element 42.

Mounted above the light source provided by the lamp 9 is a manipulatable light modifying means or diaphragm having an aperture which can be increased or decreased at will, with a readable scale to indicate the degree of light modification obtained. This light modifying means is also subject to wide variation as to its mechanical form. Illustrative of one practical form of such light modifying means I have shown the same to comprise a housing 43 having aligned openings 44 and 45 in its top and bottom walls, which are in turn aligned in and with the path of light emanating from the lamp 9 to pass upwardly through the interposed fluid. cup and its content and through the optical plunger to the photo-electric cell. Slidable in opposite directions between the top and bottom walls of said housing 43, and mutually in relation one to the other, are a pair of shutter plates 46 and 47 having opposed V-shaped open ends for movement across the pathof light. One said shutter plate, as 46, is provided with a toothed rack portion 48 and the other said shutter plate, as 47, is likewise provided with an opposed tooth rack portion 49. One end of the housing 43 projects exteriorly from the casing 6, and journaled in a wall thereof is a knob 50 to the inner end of which is fixed an actuating gear 51, with opposite sides of which the respective toothed rack portions mesh. As the V-shaped ends of the shutter plates are moved toward one another, the light transmitting aperture formed thereby is diminished, vice versa, as they are moved apart such light transmitting aperture is increased. The degree of movement of the shutters is correlative to the degree of transmitted light modification; and to give visual indication thereof a suitably an external portion of the housing 43, over which moves an indicator member 53 which receives its motion from and in correspondence to the motion of the shutters.

When utilizing the apparatus to obtain measment criteria pursuant to a method corresponding to the direct comparison of an unknown sample or specimen of the substance desired to be examined with a known standard of like substance, the shutter plates 46-47 of the light modifying means are preferably opened to provide a light transmitting aperture of maximum area. The comparison standard is then placed in one of the cups, as 15, and the unknown sample or specimen is placed in the other of the whereupon the optical plunger 31 is lowered to produce a depth of said unknown sample or specimen which will transmit that amount of light which will react upon the photo-electric cell 40 to the degree sufficient to produce the the selected depth of the comparison standard, at which point the depth scale is read. The difierence in depths gives the concentration of the unknown when treated mathematically by some such equation as provided by Beers law.

When it is desired to examine a substance for which a comparison standard is difli'cult to obtain or prepare, the following method may be pursued. Presupposing that a calibration has previously been obtained based. upon measurement by the apparatus of a specimen of the substance in question the value of which is known, thereafter other samples or specimens of this substance, the value of which are unknown, may be measured by the apparatus to obtain value indicating data to be referred to the prepared standard or comparison calibration. To obtain the standard or comparison calibration, the specimen of known value is measured as follows:

The shutters of the light modifying device are first set to. form an aperture of selected area intermediate minimum and maximum size limits, whereupon distilled water or other suitable stable fluid is placed in one of the cups, and the optical plunger set to produce a selected depth thereof. The light transmitted through the distilled water will react upon the photo-electric cell and will produce an indication on the milliammeter scale which is noted, say, for example, an indication of 2 degrees. The distilled water or other blank is removed and a specimen of the given substance of known value is placed in a cup and the optical plunger set to the same depth as used for the distilled water, the shutter of the light modifying device remaining in the position selected when setting the apparatus by use of the distilled water as above described. Now the shutter of the light modifying device is manipulated to increase or decrease the aperture formed thereby and thus increase or decrease the amount'of light passing through the specimen to the photo-electric cell as may be required until the milliammeter indication corresponds to that obtained with the distilled water, whereupon the difference in size of aperture gives the data corresponding to the known value of the concentration from which may be suitably calculated the calibration thereafter to be referred to when measuring substances of like character but of unknown value.

Assuming that at some subsequent time his desired to measure a sample of the given substance of unknown value. The apparatus is preferably first checked by utilizing a blank of distilled water, with the shutter setting and depthv plunger setting in the original selected positions to obtain a reading of the milliammeter scale, which mightyary slightly from the 2 degrees checking the apparatus, the specimen or sample quently it is intended that all matter contained in the above description or shown in the accompanying drawing shall be interpreted as illustrative and not in a limiting sense.

I claim: 1. In an apparatus of the kind described, an enclosing casing having a light source and a photoelectric cell opposed to said light source, electrical indicating means actuated by the energy output of said photo-electric cell, a transverse and adapted to contain substances tobe selectively interposed in said path of light, a transparent plunger enterable into the cup which is interposed in said path of light, and means for raising and lowering said plunger to vary the effective light traversed mass of substance in said interposed cup, said latter means having a visible means to indicate depth variations.

2. In an apparatus of the kind described, an enclosing casing having a light source and a photo-electric cell opposed to said light source, electrical indicating means actuated by the energy output of said photo-electric cell, a trans verse supporting plate slidable through said 03S. ing between said light source and cell, said plate having apertured sockets selectively alignable in the path of light directed on said cell, cups having transparent bottoms receivable in said sockets and adapted to contain substances to be selectively interposed in said path of light, a transparent plunger enterable into the cup which is interposed in said path of light, means for raising and lowering said plunger to vary the eflective light traversed mass of substance in said interposed cup, said latter means having a visible means to indicate depth variations, and light modifying means having an adjustable aperture forming means between said light source and the interposed substance-containing cup, said latter means having a visible means to indicate the degrees of light modification efiected thereby.

3. In an apparatus of the kind described, an enclosing casing having a light source and a photo-electric cell arranged in opposition to said light source. electrical indicating means actuated by the energy output of said photo-electric cell. a cup having a transparent bottom and arranged to interpose substances to be, examined between said light source and said photo-electric cell and subject to traverse therethrough of lightfrom said light source to said cell. a transparent plunger movable into said cup, means for moving said plunger to vary the efiective light traversed

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